CN101449069A

CN101449069A - Bearing unit

Info

Publication number: CN101449069A
Application number: CNA2007800179363A
Authority: CN
Inventors: 山本浩; 杉原干英; 永户厚
Original assignee: Komatsu Ltd
Current assignee: Komatsu Ltd
Priority date: 2006-05-17
Filing date: 2007-05-10
Publication date: 2009-06-03
Anticipated expiration: 2027-05-10
Also published as: US8104966B2; CN101449069B; JP2007309392A; US20090268996A1; EP2022993A1; KR20090025207A; EP2022993B1; EP2022993A4; WO2007132735A1

Abstract

In a bush (10) supporting a journal shaft (1) is inserted into a formed supporting hole (11) relatively and rotatably about its central axis, wherein a groove (16) for supplying lubricant is formed in the inner circumferential surface of the supporting hole (11) sliding on the journal shaft (1) when the journal shaft rotates relatively, the ratio of the area of the lubrication groove (16) to the area of the inner circumferential surface of the supporting hole (11) is 30% or less, and a product of the distance of the journal shaft (1) in the direction of the central axis and the distance in the circumferential direction is 50-300 mm<2> between the lubrication grooves (16) adjoining each other on the inner circumferential surface of the supporting hole (11).

Description

Bearing means

Technical field

The present invention relates to bearing means, more particularly, relate to and be applicable to the various linking portions of for example building in the building machinery etc., and with the spindle unit supporting for can center on the counterrotating bearing means of its central shaft.

Background technique

In the past, for example, in the various linking portions in building building machinery etc., used the rod axis parts carry to centering on the counterrotating bearing means in axle center as the axle center with its central shaft.Such bearing means for example is the tubular form, inserts the axis parts in being formed at inner bearing hole, and this spindle unit is supported to rotating relatively.Also have, under the counterrotating situation of this spindle unit, form the thin oil film of the lubricant oil between the inner peripheral surface of the outer circumferential face that is supplied in this spindle unit and bearing hole.That is, spindle unit rotates relatively by the oil film based on lubricant oil.

Yet, be aspect the job behavior of building building machinery etc. of representative with excavator etc., because spindle unit back and forth rotates the angle of regulation with low speed, high loading, therefore, relative sliding velocity between the outer circumferential face of this spindle unit and the inner peripheral surface of bearing hole is extremely slow, slips zone (contact angle zone) at it and acts on very large loading.Therefore, rupture of oil film takes place in the part between the inner peripheral surface of the outer circumferential face of spindle unit and bearing hole, thereby at the outer circumferential face of spindle unit or the inner peripheral surface of bearing hole sintering takes place easily.

Therefore, proposed that the inner peripheral surface in bearing hole is formed for the fuel feeding slot part of supplying lubricating oil, the area of fuel feeding slot part has been made as 30～90% bearing means with respect to the ratio of the area of the inner peripheral surface of bearing hole.In such bearing means, can pass through fuel feeding slot part supplying lubricating oil stably, the generation of the rupture of oil film that inhibition is local etc., thus improve sintering resistance (for example, with reference to patent documentation 1).

Patent documentation 1: 2004-No. 84815 communiques of TOHKEMY.

Summary of the invention

Yet, in the bearing means of in above-mentioned patent documentation 1, proposing, because the area of fuel feeding slot part is more than 30% with respect to the ratio of the area of the inner peripheral surface of bearing hole, therefore, the part beyond the fuel feeding slot part in the bearing hole, promptly with relative the diminishing of area ratio of the face that slips of the outer circumferential face actual contact of spindle unit.Like this, diminish relatively if slip the area ratio of face, then the friction factor of the inner peripheral surface of bearing hole can be fully not little.If friction factor is insufficient little, then can produce excessive moment of torsion under the effect of the surface friction drag when spindle unit rotates relatively, its result, the load of effect more than required on the support unit of support bearing means etc. for example may cause the breakage of this support unit etc. thus.Like this, if improve sintering resistance, then friction factor becomes big, and if reduce friction factor, then sintering resistance reduces, and both are in opposite relation.

The objective of the invention is to In view of the foregoing, provide to make sintering resistance and the good bearing means of friction factor that is in inverse relationship.

To achieve these goals, the bearing means of a first aspect of the present invention, it inserts the axis parts in formed bearing hole, this spindle unit supporting is rotated relatively for centering on its central shaft, when described spindle unit rotates relatively and on the inner peripheral surface of this spindle unit described bearing hole of slipping, helical is formed with the fuel feeding slot part that is used for supplying lubricating oil, described bearing means is characterised in that, the area of described fuel feeding slot part is below 30% with respect to the ratio of the area of the inner peripheral surface of described bearing hole, and the long-pending of the distance of the central axis direction of the described spindle unit between the described fuel feeding slot part that adjoins each other on the inner peripheral surface of described bearing hole and circumferential distance is 50mm ²More than and 300mm ²Below.

In addition, the bearing means of a second aspect of the present invention is characterized in that based on above-mentioned first aspect described fuel feeding slot part forms many grooves.

In addition, the bearing means of a third aspect of the present invention is characterized in that based on above-mentioned first or second aspect described fuel feeding slot part is more than 70 ° and below 80 ° with respect to the tilt angle of the central axis direction of described spindle unit.

According to the present invention, because the area of fuel feeding slot part is below 30% with respect to the ratio of the area of the inner peripheral surface of bearing hole, the distance of the central axis direction of the spindle unit between the fuel feeding slot part that adjoins each other on the inner peripheral surface of bearing hole and circumferential distance long-pending is 50mm ²More than and 300mm ²Below, therefore, can guarantee the area of the part beyond the fuel feeding slot part on the inner peripheral surface of bearing hole fully, and, can be from the fuel feeding slot part that adjoins each other supplying lubricating oil stably, thus can suppress to take place the situation of rupture of oil film etc.Its result can guarantee necessary sintering resistance fully when making friction factor fully little, can make friction factor and all good effect of sintering resistance that is in inverse relationship thereby play.

Description of drawings

Fig. 1 is the longitudinal sectional drawing of the structure of the summary bearing means of representing embodiments of the present invention.

Fig. 2 is the amplification profile that amplifies the end of expression bearing means shown in Figure 1.

Fig. 3 is the amplification profile that amplifies the periphery middle body of expression bearing means shown in Figure 1.

Fig. 4 is the amplification profile that amplifies the inner peripheral surface of expression bearing means shown in Figure 1.

Fig. 5 is the chart of the friction factor of expression when the area ratio of fuel feeding slot part is changed.

Fig. 6 is that expression changes the spacing between the fuel feeding slot part and the chart of the variation that friction factor when compression area is changed and sintered surface are pressed.

Among the figure: 10-lining; 11-bearing hole; 12a-inner the conical surface; 12b-outside the conical surface; 13-lubricating oil flow path; 14-intercommunicating pore; 15-lubricant oil is supplied with slot part; 16-fuel feeding slot part.

Embodiment

Below, with reference to accompanying drawing, describe the preferred implementation of bearing means of the present invention in detail.

Fig. 1 is the longitudinal sectional drawing that the structure of the bearing means in the embodiment of the present invention represented in summary.At this illustrative bearing means is the lining (bush) 10 of linking portion that is applicable to the equipment of armite and scraper bowl, and above-mentioned arm and scraper bowl are assemblied in the excavator as the building building machinery.

Lining 10 is cylindric form, though do not express among the figure, is fixedly attached to the interior week of this axle sleeve in the mode in the cylindric axle sleeve (boss) that is pressed into the front end that is fixedly attached to above-mentioned arm.Such lining 10 is inserted axle (the journal shaft) 1 that leads to as the journal rest of rod axis parts in being formed at inner bearing hole 11.The axle 1 of journal rest has the internal diameter of bearing hole of being slightly less than 11, and (for example 40～120mm) external diameter though do not express among the figure, is fixedly attached between the pair of brackets of above-mentioned scraper bowl.Also have, when excavator operation, if swing is linked to the scraper bowl swing of arm freely, then the axle 1 of journal rest is that the axle center centers on the axle center and rotates relatively with its central shaft.That is, lining 10 rotate axle 1 supporting of journal rest relatively for centering on its central shaft, and under the axle 1 counterrotating situation of journal rest, the outer circumferential face of the axle 1 of this journal rest and the inner peripheral surface of bearing hole 11 slip.

Above-mentioned lining 10 is made of desirable steel, for example high carbon steel or the alloyed steel of having stipulated material by the JIS mark.The surface hardness of lining 10 is that Rockwell hardness HRC gets final product more than 50, preferred Rockwell hardness HRC 52～60.

As shown in Figure 2, part of the peristome in the two ends of such lining 10 and external side brim part are formed with inner conical surface 12a and outside conical surface 12b respectively.Inner conical surface 12a forms the axle 1 of easy insertion journal rest.Outside conical surface 12b forms easily and is pressed in axle sleeve, and inner conical surface 12a is little for taper ratio.In addition, as shown in Figure 3, be formed with lubricating oil flow path 13 along peripheral direction in the central part part of the outer circumferential face of lining 10.Lubricating oil flow path 13 is the streams of lubricant oil that are supplied in the inner peripheral surface of lining 10, in the present embodiment, and for example by cutting or casting and section shape is formed circular-arc.

On the other hand, the inner peripheral surface at lining 10 (bearing hole 11) is formed with lubricant oil supply slot part 15 and fuel feeding slot part 16.Lubricant oil is supplied with slot part 15 and is formed along interior Zhou Fangxiang in the zone corresponding to lubricating oil flow path 13 of the middle body of inner peripheral surface.This lubricant oil is supplied with slot part 15 and is communicated with lubricating oil flow path 13 by intercommunicating pore 14, and its well width is more smaller than lubricating oil flow path 13.In the present embodiment, the section shape of lubricant oil supply slot part 15 forms circular-arc.

Fuel feeding slot part 16 is supplied with slot part 15 from lubricant oil and is partly formed helical towards the openings at two ends edge.More particularly, fuel feeding slot part 16 is axially being that the tilt form of angle of regulation of axle 1 the central axis direction of journal rest forms with respect to lining 10.In addition, fuel feeding slot part 16 forms many grooves (for example 6 grooves).At this, as the tiltangle of fuel feeding slot part 16, do not limit especially, but for example preferred more than 70 ° and the scope below 80 °, especially preferred 75 °.Fuel feeding slot part 16 more particularly, is used for supplying with the lubricant oil that is supplied in lubricant oil supply slot part 15 via intercommunicating pore 14 to the inner peripheral surface circulation of bearing hole 11 to the inner peripheral surface supplying lubricating oil of bearing hole 11.In the present embodiment, the section shape of fuel feeding slot part 16 forms circular-arc, supplies with the well width of slot part 15 less than lubricant oil.Well width about this fuel feeding slot part 16 is narrated in the back.

In addition, the inner peripheral surface of lining 10 preferably after forming fuel feeding slot part 16, is implemented cure process such as high frequency hardening.

More than Shuo Ming lining 10 is characterised in that, the area of fuel feeding slot part 16 is below 30% with respect to the ratio of the area of the inner peripheral surface of bearing hole 11 (below be also referred to as area than), preferred more than 10% and below 30%, and then as shown in Figure 4, long-pending (a * c: below be also referred to as compression area) is 50mm in the distance (a) of axle 1 the central axis direction of the journal rest between the fuel feeding slot part 16 that adjoins each other on the inner peripheral surface of bearing hole 11 and circumferential distance (c) ²More than and 300mm ²Below.

As can be known clear and definite by Fig. 5, be below 30% by the area ratio that makes fuel feeding slot part 16, can make friction factor fully little.At this, the friction factor when Fig. 5 represents to make the ratio of the area of fuel feeding slot part to change.At this, the internal diameter of lining 10 is made as 70mm.As shown in Figure 5, than being under the situation below 30%, can make friction factor fully little to below 0.08 at area, and area than 30% the situation of surpassing under, it is big that friction factor becomes.

Also having, is below 30% by making described area ratio, and compression area is 50mm ²More than and 300mm ²Below, can guarantee fully beyond the fuel feeding slot part 16 on the inner peripheral surface of bearing hole 11 area, promptly with the area of the face that slips of the outer circumferential face actual contact of the axle 1 of journal rest, and, supplying lubricating oil can stably circulate from the fuel feeding slot part 16 that adjoins each other, thereby can suppress to take place the situation of rupture of oil film etc., its result can guarantee necessary sintering resistance fully when making friction factor fully little.Thereby, in above-mentioned lining 10, can make the friction factor and the sintering resistance that are in inverse relationship all good.

Owing to can make friction factor fully little like this, therefore, axle 1 owing to journal rest can be rotated relatively the moment of torsion that produces and suppress to be desirable size, can not apply necessary above load, thereby can prevent the situation of these parts breakages the support of the axle 1 of bearing journal supporting or the axle sleeve of support sleeve 10 etc.

Fig. 6 represents to change the spacing between the fuel feeding slot part and variation that friction factor when compression area is changed and sintered surface are pressed.At this, the internal diameter of lining 10 is made as 70mm, the tiltangle of fuel feeding slot part 16 is made as 75 °, the area ratio of fuel feeding slot part 16 is made as below 30%, the angle of oscillation of scraper bowl is made as 46 °.Sintered surface is pressed and is calculated divided by the area of contour of the inner peripheral surface of bearing hole 11 by the load loading that will put on lining 10.

As can be known clear and definite from described Fig. 6, be 50mm at compression area ²More than and 300mm ²In the following scope, friction factor is below 0.08, and sintered surface is pressed and is 5kg/mm ²More than, thereby can when making friction factor fully little, the sintered surface pressure be guaranteed to be required enough sizes.At compression area less than 50mm ²Situation under, it is very big that sintered surface is pressed, but friction factor becomes big.More particularly, friction factor becomes bigger than 0.08.Like this, greater than 0.08, then the spline position (support etc.) of the axle 1 of journal rest may be damaged as if friction factor.On the other hand, if compression area surpasses 300mm ², then friction factor becomes fully little, but the sintered surface pressure diminishes.More particularly, sintered surface is pressed and is become less than 5kg/mm ²Like this, press less than 5kg/mm as if sintered surface ², then under the service condition of the equipment of building building machinery, produce sintering position etc.

As can be known clear and definite from described experimental result, be below 30% by the area ratio that makes fuel feeding slot part 16, compression area is 50mm ²More than and 300mm ²Below, can make friction factor and sintering resistance good.

In above-mentioned lining 10, be in the scope of 40～120mm at (bearing hole 11) internal diameter, if the area ratio of fuel feeding slot part 16 is below 30%, compression area is 50mm ²More than and 300mm ²Below, then the well width of fuel feeding slot part 16 is below the 3.0mm.Thereby in lining 10, the well width of preferred fuel feeding slot part 16 is below the 3.0mm, more than the especially preferred 0.5mm and below the 3.0mm.Like this, the well width by fuel feeding slot part 16 is below the 3.0mm, can guarantee necessary sintering resistance fully when making friction factor fully little.

More than, preferred implementation of the present invention is illustrated, but the present invention is not limited to this, can carry out various changes.For example, in the above-described embodiment, fuel feeding slot part 16 is formed with many grooves, but in the present invention, the fuel feeding slot part also can form a groove.According to this structure, as long as the area of fuel feeding slot part ratio is specific scope, and compression area just can play the action effect identical with above-mentioned mode of execution in specific scope.In addition, " between the fuel feeding slot part that adjoins each other " under the situation of a groove of fuel feeding slot part formation is meant between the fuel feeding slot part that adjoins each other in the regulation zone in the inner peripheral surface of bearing hole.

In addition, in the above-described embodiment, the section shape of fuel feeding slot part 16 is circular-arc, but in the present invention, the section shape of fuel feeding slot part also can be triangle or rectangular-shaped.

And then, in the above-described embodiment, to be applicable to that the lining 10 of binding as the linking portion of the equipment of the arm that assembles and scraper bowl in the excavator of building building machinery is illustrated as bearing means, but bearing means of the present invention is not limited to described lining 10, goes for the various linking portions of various industrial machines.

Industrial applicibility

As mentioned above, bearing arrangement of the present invention is such as the various companies that are applicable in the building building machinery etc. The knot branch is useful for supporting spindle unit for relatively rotating around its central shaft.

Claims

1. bearing means, it inserts the axis parts in formed bearing hole, this spindle unit supporting is rotated relatively for centering on its central shaft, when described spindle unit rotates relatively and on the inner peripheral surface of this spindle unit described bearing hole of slipping, helical is formed with the fuel feeding slot part that is used for supplying lubricating oil

Described bearing means is characterised in that,

The area of described fuel feeding slot part is below 30% with respect to the ratio of the area of the inner peripheral surface of described bearing hole, and the long-pending of the distance of the central axis direction of the described spindle unit between the described fuel feeding slot part that adjoins each other on the inner peripheral surface of described bearing hole and circumferential distance is 50mm ²More than and 300mm ²Below.

2. bearing means according to claim 1 is characterized in that,

Described fuel feeding slot part forms many grooves.

3. bearing means according to claim 1 and 2 is characterized in that,

Described fuel feeding slot part is more than 70 ° and below 80 ° with respect to the tilt angle of the central axis direction of described spindle unit.